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đź’ŽAndroid application following best practices: Kotlin, coroutines, Clean Architecture, feature modules, tests, MVVM, static analysis...

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Project description

CircleCI Kotlin Version API

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Showcase is a sample project that presents modern, 2019 approach to Android application development using Kotlin and latest tech-stack.

The goal of the project is to demonstrate best practices, provide a set of guidelines, and present modern Android application architecture that is modular, scalable, maintainable and testable. This application may look simple, but it has all of these small details that will set the rock-solid foundation of the larger app suitable for bigger teams and long application lifecycle. Many of the project design decisions follow official Google recommendations.

This project is being heavily maintained to match current industry standards. In upcoming weeks (Aug-Dec 2019) I plan to write an extensive series of articles explaining many of this project architectural design decisions, so stay tuned.

Project characteristics

This project brings to table set of best practices, tools, and solutions:

  • 100% Kotlin
  • Modern architecture (feature modules, Clean Architecture, Model-View-ViewModel)
  • Android Jetpack
  • A single-activity architecture, using the Navigation component to manage fragment operations
    • Reactive UIs
  • CI pipeline
  • Testing
  • Static analysis tools
  • Dependency Injection
  • Material design

Tech-stack

Min API level is set to 21, so the presented approach is suitable for over 85% of devices running Android. This project takes advantage of many popular libraries and tools of the Android ecosystem. Most of the libraries are in the stable version, unless there is a good reason to use non-stable dependency.

Architecture

Feature related code is placed inside one of the feature modules. This modularized approach provides better separation of concerns in the codebase and allows for feature to be developed in isolation, independently from other features.

Module dependencies

This is a simplified diagram of dependencies between gradle modules.

module_dependencies

Note that due usage of Android dynamic-feature module dependencies are reversed (feature modules are depending on app module, not another way around).

Feature structure

Each feature module contains own set of the Clean Architecture layers:

feature_structure

Each layer has a distinct set of responsibilities:

  • Presentation layer - responsible for presenting data to a screen and handling user interactions.
  • Domain layer - contains UseCases (business logic) and supporting domain models (entities).
  • Data layer - encapsulates the source of the data (eg. network, memory cache, local database...) and serves as unified access point to the data for Domain layer.

feature_structure

Clean architecture is the "core architecture" of the application. Presentation layer is as mix of MVVM (Jetpack ViewModel used to preserve data across activity restart) and MVI (actions modify common state of the view and then new state is edited to a view via LiveData to be rendered).

common state (for each view) approach derives from Unidirectional Data Flow and Redux principles.

Let's take a look at two common android cases when view state can be lost:

  • Activity restart - view state should be restored from ViewModel state (last value emitted by LiveData)
  • Process restart - view state should be restored from Repository (whatever data comes from the local cache or network)

Data flow

Below diagram presents application data flow when a user interacts with album list screen:

app_data_flow

Ci pipeline

CI pipeline verifies project correctness witch each PR. Some of the tasks run in parallel, while others like app build will not be stared until all static checks and tests complete successfully:

ci_pipeline.jpg

These are all of the Gradle tasks (cmd commands) that are executed by CI:

  • ./gradlew lintDebug - runs Android lint
  • ./gradlew detekt - runs detekt
  • ./gradlew ktlintCheck - runs ktlint
  • ./gradlew testDebugUnitTest - run unit tests
  • ./gradlew :app:bundleDebug - create app bundle

On top of that project contains custom ./gradlew staticCheck task that mimics all CI tasks and is intended to run on local computer.

What this project does not cover?

The interface of the app utilises some of modern material design components, however, is deliberately kept simple to focus on application architecture.

Upcoming improvements

  • Android Dynamic delivery
  • Caching layer (memory + disk)
  • Add Room
  • UI tests (including CI pipeline emulator configuration)
  • Data binding
  • Add Custom android lint, ktlint and detekt checks/rules
  • Add script to update all dependencies in the project, create PR to run all checks
  • Continuous deployment (automatically publish app to Google play store using CI)
  • Support for DayNight MaterialTheme
  • and much more…

Getting started

There are a few ways to open this project.

Android Studio

  1. Android Studio -> File -> New -> From Version control -> Git
  2. Enter https://github.com/igorwojda/android-showcase.git into URL field

Command line + Android Studio

  1. Run git clone https://github.com/igorwojda/android-showcase.git
  2. Android Studio -> File -> Open

Known issues

  • Classes generated by SafeArgs plugin (AlbumListFragmentDirections, AlbumDetailFragmentArgs...) are not properly recognized by IDE in the multi-module configuration. Code will run however IDE will mark these classes as non- existing. Also sometimes code has to be cleaned before running tests. This needs more investigation.

Inspiration

This is project is just a sample, to inspire you and should handle most of the common cases. I encourage you to also take a look at other high-quality projects to find architecture that works for you and your existing codebase:

Contribute

Feedback and new contributions are welcome whether it's through bug reports or new PRs.

Author

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License

MIT License

Copyright (c) 2019 Igor Wojda

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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